The Institute is open to any forms of cooperation in the areas of:
- diffractive Optics;
- mathematical methods for image processing and pattern recognition;
- development and fabrication of breadboard models of optical devices using diffractive and conventional optics;
- information systems and software for digital image processing and identification.
List of finished developments of the IPSI RAS
- Software for the design and simulation of diffractive optical elements, DOEs:
- Quick-DOE uses analytical ray-tracing solutions and fast Fourier transform.
- DOE-Tools uses Hankel transforms with wide range of capabilities of representing results of designing;
- ITER-DOE and ITER-MODE employ original iterative methods for designing diffractive and kinoform optics;
- TM-DOE uses gradient design methods based on the Rayleigh approximation and rigorous electromagnetic theory.
- Software for interferogram processing - ITER.
- Technological route for generating the diffractive and harmonic (up to 100 mkm) microrelief of optical elements using liquid photopolymerizable compositions.
- Technological route for generating the diffractive microrelief of optical elements using dry and e-beam lithography.
- Diffractive optical elements for focusing the near and middle IR laser light.
- Helical axicons.
- Diffractive light diffusers.
- Optical elements for generation and analysis of laser light modal composition - modans.
- Diffractive- and waveguide-optics-based coplanar illuminators.
- A breadboard model of closed communication line with multiplexing using control of modal composition.
- SubJava pretranslator;
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